Ion exchange membranes based on silica and sulfonated copolymers of styrene with allyl glycidyl ether

Ion exchange membranes based on silica and sulfonated copolymers of styrene with allyl glycidyl ether

Proton-conducting membranes have been obtained by sol–gel synthesis involving tetraethyl orthosilicate and sulfonated suspension copolymers of styrene with allyl glycidyl ether. The membranes are gels consisting of a polymer matrix, in which silica particles are uniformly distributed. The synthesize...

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Veröffentlicht in:Petroleum chemistry 2017-09, Vol.57 (9), p.763-769
Hauptverfasser: Lebedeva, O. V., Malahova, E. A., Sipkina, E. I., Chesnokova, A. N., Kuzmin, A. V., Maksimenko, S. D., Pozhidaev, Yu. N., Rzhechitskiy, A. E., Raskulova, T. V., Ivanov, N. A.
Format: Artikel
Sprache:eng
Schlagworte:
Activation energy
Chemical synthesis
Chemistry
Chemistry and Materials Science
Copolymers
Electric properties
Gels
Industrial Chemistry/Chemical Engineering
Ion exchange
Membranes
Modulus of elasticity
Particle physics
Silicon dioxide
Sol-gel processes
Tensile strength
Tetraethyl orthosilicate
Thermal stability
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Zusammenfassung:Proton-conducting membranes have been obtained by sol–gel synthesis involving tetraethyl orthosilicate and sulfonated suspension copolymers of styrene with allyl glycidyl ether. The membranes are gels consisting of a polymer matrix, in which silica particles are uniformly distributed. The synthesized membranes are characterized by the proton conductivity of up to 4.21 × 10 –2 S/cm at 343 K and 75% humidity, an ion exchange capacity of 3.5 meq/g, a proton-transfer activation energy of 25.2 ± 2.6 kJ/mol, thermal stability of up to 130°C, and mechanical strength (tensile modulus of elasticity, 322 MPa).
ISSN:0965-5441
1555-6239
DOI:10.1134/S0965544117090067